An optical disk reproducing apparatus has a circuit for detecting a difference in modulation scheme between two types of optical disks in a reproduction signal and a circuit for determining the modulation schemes of the disks on the basis of the difference. Thus the apparatus can reproduce the two optical disks with use of the circuit which determines the modulation schemes of the disks to be reproduced.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An optical disk reproducing apparatus for reproducing data from an optical disk, the optical disk reproducing apparatus comprising: a pickup for irradiating the optical disk with a laser beam; an analog front end for converting light reflected by the optical disk into an electric signal; a binary circuit for converting the electric signal as an output of the analog front end into a binary signal; a first demodulation circuit for demodulating the binary signal as an output of the binary circuit according to a first modulation scheme having a first predetermined limited iteration count of a minimum run length; a second demodulation circuit for demodulating the binary signal as the output of the binary circuit according to a second modulation scheme having the same minimum run length as the first modulation scheme and having a second predetermined limited iteration count of the minimum run length, wherein the first limited iteration count is different from the second limited iteration count; a run length measurement circuit for measuring an iteration count of the minimum run length of the binary signal; a switch for selectively outputting outputs of the first and second demodulation circuits; and a modulation scheme determination circuit for determining which modulation scheme is used for the optical disk, according to the measured iteration count of the minimum run length, and said first and second limited iteration counts, controlling the switch so as to selectively output the output of the first demodulation circuit when data from an optical disk of the first modulation scheme is reproduced, and controlling the switch so as to selectively output the output of the second demodulation circuit when data from an optical disk of the second modulation scheme is reproduced.
2. An optical disk reproducing apparatus according to claim 1 , further comprising a differentiation circuit for differentiating the binary signal as the output of the binary circuit, and wherein the modulation scheme determination circuit controls the switch on the basis of an output of the differentiation circuit.
3. An optical disk reproducing apparatus according to claim 1 , further comprising a DSV variation calculation circuit for calculating a variation in a digital sum value (DSV) of the binary signal as the output of the binary circuit, and wherein the modulation scheme determination circuit controls the switch on the basis of an output of the DSV variation calculation circuit.
4. An optical disk reproducing apparatus according to claim 1 , further comprising a DC variation calculation circuit for calculating a variation in a low-frequency component (DC) in the binary signal as the output of the binary circuit, and wherein the modulation scheme determination circuit controls the switch on the basis of an output of the DC variation calculation circuit.
5. An optical disk reproducing apparatus according to claim 1 , wherein the limited value m of a frequency of repetition of the minimum run length in the first modulation scheme is 5, and the limited value n of a frequency of repetition of the minimum run length in the first modulation scheme is 6.
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March 22, 2007
October 26, 2010
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